Okawachi Pumped Storage Power Station | |
Country: | Japan |
Location: | Hase, Kanzaki district, Hyōgo |
Status: | O |
Construction Began: | 1980 |
Opening: | 1992–1995 |
Operator: | KEPCO |
Res Name: | Ota Reservoir |
Res Capacity Total: | 10150000m2 |
Lower Res Name: | Hase Reservoir |
Lower Res Capacity Total: | 9604000m2 |
Plant Pumpgenerators: | 2 x 329, 2 x 331 MW reversible Francis turbines |
Plant Hydraulic Head: | 394.7m (1,294.9feet) |
Plant Capacity: | 1280MW |
The is a large pumped-storage hydroelectric power station in Kamikawa Town in the Kanzaki District of Hyōgo Prefecture, Japan. With a total installed capacity of, it is one of the largest pumped-storage power stations in Japan.[1] The facility is run by the Kansai Electric Power Company (KEPCO).[2] The power plant started operation in October 1992 and all four units were commissioned by June 1995.[3]
Like most pumped-storage facilities, the power station uses two reservoirs, releasing and pumping as the demand rises and falls. The Ota artificial lake is the upper reservoir, and is contained by five dams, numbered Ota Dam 1 to 5. The reservoir is fed by the river Ota. Hase reservoir is the lower reservoir and is contained by the Hase Dam. The upper Ota dams are rock-fill dams, while the lower Hase Dam is a gravity dam.[4]
The upper Ota reservoir was built during the Meiji period to feed the . The plant started operation in December 1909 with a maximum output of 1450 kW.[5] [6] with a generation capacity of 720 kW was added in May 1919.The enlargement of the Ota reservoir and the building of the new Hase lower reservoir was implemented by Kansai Electric Power Company, with start of operation of the new pumped storage plant in 1992. The plant reached the current capacity in 1996 with all the four units in operation.
The power station employs four generation/pumping units. Two of the units are adjustable speed systems manufactured by Hitachi, allowing for a rapid variation of power levels during both pumping and generation. This allows the power station to respond more effectively to grid requests for the balancing of demand and supply, a role which is usually performed by thermal power plants.[7] These units were the first large-capacity adjustable-speed pumped storage hydroelectric systems in the world.[8]